DE2504921A1 - Offshore operational structure - with floodable foundation and bearing column for floatable deck platform and telescopic support column - Google Patents

Abstract

A floating submersible structure for research, drilling or prodn. operations in the off-shire regions consists of a circular foundation, shaped like a truncated cone, which can be flooded on site and carries a central bearing pillar. A deck platform can slide from one position where it rests on the top side of the foundation (druing floating to site), to a second position where it is joined to the top of a telescopically movable support pillar in the bearing pillar. This saves the mechanical jacking-up operation in which the deck platform must be raised from water level to an elevated position. It has been replaced by a water pumping operation which does not require fine weather or complex apparatus.

Description

Underwater structure The invention relates to an underwater structure with a floodable foundation body arrangement and a supporting pillar connected to it as well as a deck body and a method - for towing and lowering one such underwater structure.

Underwater structures with floodable foundation body arrangements are already known, and they are very often used to create work, research or extraction platforms in the offshore sector. For this purpose, the foundation body arrangement with pillars attached to it and possibly one held on the pillars Deck body made at a pre-assembly point and then in one for the whole Structure suitable floating position dragged from the pre-assembly point to the location, -um at the location by further flooding of the foundation body arrangement on the sea floor to be lowered.

It is readily apparent that when the structure from the pre-assembly point to the location as well as when lowering to the seabed stability problems result, especially if a deck body is attached to the upper ends of the piers is attached so that it must be ensured that the structure during the dragging and the lowering has a stable position.

These stability problems occur in particular when the Structure to be lowered or the underwater structure on the floodable foundation body arrangement not a large number of pillars, but just a single support pillar has, as is the case, for example, with the so-called monopod platform is. With such a structure it is difficult to be supportive and stabilizing Float bodies to be attached in such a way that they of the structure during the dragging and give good dimensional stability when lowering.

Such a platform has already been proposed (German Patent application P 24 61 685.1), float body resp.

a deck body acting as a float around the pillar to be arranged so that supports distributed around the circumference of the foundation body assembly extend through the float body or the deck body. These supports serve when dragging and lowering to guide and position the float body in the area of the water surface. If the deck is in the shape of a float, so the supports are also used to with the foundation body assembly lowered to the seabed which is on Height of the water surface to be "jacked up" and to bring it to its final position. After the foundation body arrangement is lowered to the seabed and the supports are no longer used for positioning the float body or the "jacking up" of the deck body are required, swivels you approach them to the support pillar, so that they give this additional strength.

This older proposal already poses significant stability problems solved when dragging and lowering from underwater structures, but required this older underwater structure with the intended use of the deck body as a float the "jacking up" of the deck body after the lowering of the foundation body arrangement on the seabed, i.e.

the relatively heavy deck structure must be removed from the area of the water surface mechanically raised over this to several in the desired end position Meters, for example 20 m above the water surface. This "high jackets" is already known from jack-up rigs, but only in the area of swell influence feasible in very good weather and therefore with difficulty and great effort tied together.

In contrast, the invention relates to an underwater structure of the introduction mentioned type, which is characterized by the fact that the deck body consists of a float exists or is connected to floats and between a first position, in which it surrounds the support pillar on the upper surface of the foundation body assembly rests or is held just above this surface, and movable to a second position is in which it can be telescoped out of the support pillar with the upper end of a Buttress is connected.

To tow the underwater structure according to the invention, the Foundation body partially flooded and the deck body held in the first position. The foundation body arrangement, which consists of a can consist of a single body or a number of separate bodies, flooded further in a controlled manner and the cover body is held in the area of the water surface, so that the float properties having deck body the underwater structure during the lowering process the desired Provides stability, while the center of gravity of the underwater structure during the dragging process as a result of the first position of the deck body is so low that the dragging can be done without additional floats.

To the deck body after the lowering of the foundation body assembly to bring to the seabed in its final position above the water surface, becomes the cavity in the buttress, which at least partially during the dragging is flooded, for the upward movement of the buttress and the located in the second Position of the deck body controlled gelenzt so that he is up from pushes out the support pillar and the deck in the desired end position got. Then the supporting pillars and supporting pillars are firmly connected to each other, for example by pressing concrete in between them both formed annulus, if the underwater structure remains permanently at the location target. To drag the underwater structure back and use it at other locations To be able to do so, a detachable connection between the support pillar and the supporting pillar can be established via hydraulics or toggle levers.

To the deck body during the lowering process controlled by the first To be able to move into the second position, he can use cables with the foundation body be connected, the length of the cables can be changed in a controlled manner, so that the distance between the deck body and the foundation body can be regulated, i.e. the flooding of the foundation body does not lead to an uncontrolled lowering movement during the lowering process leads, but through the suspension of the foundation body and support pillars on the deck structure floating on the surface of the water is regulated.

Around the support pillar to lift the deck body means buoyancy out To be able to move the support pillar out, the support pillar has at least in its The lower part has a cavity that can be flooded and drained. It is possible to use the buttress to be designed as a closed cylinder body, which has a total of a flood and It encloses a drainable cavity, but only the lower part of the support pillar is needed to have a floodable and drainable cavity, so that the area of the support pillar Above this cavity, for example, have the shape of a lattice mast or the like can.

In a further embodiment of the invention, the extends The central opening of the support pillar, which accommodates the support pillar, goes down through the foundation body, so that the underwater structure can, for example, serve as a drilling platform and that or the drill rods from the deck body through the support pier, the support pillar and the central opening of the foundation body are guided into the seabed.

If the underwater structure according to the invention serve as a drilling platform should, areas for generation are preferably in the bottom wall of the support pillar provided by breakthrough openings, for example areas made of bulletproof glass, which penetrate or penetrate after the assembly of the underwater structure by the drill rods

to be broken out.

It should be noted that the underwater structure according to the invention is suitable for practically all water depths of interest at the time, in particular but can be used for water depths over 50 m.

The invention is illustrated below with reference to schematically an exemplary embodiment showing figures explained in more detail.

Figure 1 shows in a side view the underwater structure according to of the invention in the state for deportation.

Figure 2 shows the underwater structure according to Figure 1 with on the sea floor lowered foundation body and located in the area of the water surface Deck body.

Figure 3 shows the end position of the underwater structure according to the figures 1 and 2.

The underwater structure shown has a floodable foundation body 1, which, for example, has a circular cross-section and increases in height the stability during the dragging and the lowering according to a frustoconical shape tapered at the top. Concentric to the central opening provided in the foundation body 1 2 (Figure 3) a support pillar 4 is attached to the foundation body, in which a telescopically displaceable support pillar 5 is arranged. This buttress has an enlarged diameter in its upper end region, so that a collar-like Extension 7 is formed, the function of which will be explained later.

The cover body 3 contains cavities, not shown, so that it can serve as a float. These cavities can later be used as storage tanks to be used.

The underwater structure shown is at a pre-assembly area, for example made in a building dock. The Deck body 3 in the first position, i.e. it rests on the foundation body or is a short distance above this foundation body. Then the foundation body partially flooded and the underwater structure is in the position shown in FIG. It is immediately clear that in this situation the center of gravity is relatively low lies and -that is due to the above-mentioned shape of the foundation body a additional Stability results. In this context, pay attention pointed out that the support pillar 5, which is designed as a hollow body, is at least partially is flooded so that it does not move as a result of its own buoyancy of dragging out of the support pillar 4. However, it is also a mechanical one The support pillar 5 can be locked, for example by means of chains.

Has the location reached where the underwater structure hits the seabed? 14 is to be lowered, the foundation body 1 is flooded further to lower. The cover body 3 also moves from the position shown in FIG. 1 in a lower position in the area of the water surface 13+ where it is due to its swimming properties swims.

As indicated schematically in Figure 2, are during the lowering process Foundation body 1 and deck body 3 connected via cables or chains, of which only the two cables 10 and 12 are shown. These cables run over winches or rollers 9, 11 on the cover body 3, so that the foundation body 1 in the area the water surface floating deck body 3 "hangs" on this, so lower the Ab as a result of flooding of the foundation body 1 by gradually lengthening the cables can be controlled.

The dimensions of the underwater structure are chosen so that the deck body 3 then rests against the collar 7 of the support pillar 5 at the latest when the foundation body 1 rests on the sea floor 14.

Then the collar 7..with the cover body 3 is connected, and through Lenzen of the cavity in the buttress 5, buoyancy is generated for it. This boost lets the support pillar 5 step out of the support pillar 4, so that the one with the support pillar 5 connected deck body 3 is raised above the water surface 13 until the The end position shown in Figure 3 is reached.

In this end position, support pillars 4 and support pillars 5 can be connected to one another be connected, for example by pressing concrete in between them formed annulus or by detachable mechanical devices.

Thus, there is no mechanical in the underwater structure according to the invention "Jacking up" of the deck body above the water surface is required, but rather the Deck body is created by generating a corresponding buoyancy in the support pillar brought into its end position.

The underwater structure shown is suitable, for example, as a Drilling platform, the drill rods through the interior of the support pillar 5, support pillar 4 and central opening 2 of the foundation body 1 can be brought down. In order to the drill rods without difficulty through the closed bottom 6 of the Support pillars 5 can pass through, you can in the ground 6, not shown, prepared Provide breakthrough openings that break when the drill rods hit will. Such breakthrough openings can be formed by installing glass or the like will.

In addition, it should be noted that the foundation body, for example can be made of reinforced or prestressed concrete, while the supporting pillar as well like the support pillars are made of reinforced or prestressed concrete or also of steel can.

The latter also applies to the deck body. The foundation body arrangement can also contain a number of separate, floodable foundation bodies, and it is it is also possible to anchor the sunken underwater structure using driven piles.

Claims (8)

Expectations rn underwater structure with a floodable foundation body arrangement and a supporting pillar connected to it and a deck structure, characterized in that that the deck body (3) consists of a float or is connected to float bodies is and between a first position in which it surrounds the support pillar (4) the upper surface of the foundation body arrangement (1) rests or just above this Surface is held, and a second position is movable in which it is with the upper end of a support pillar which can be telescoped out of the support pillar (4) (5) is connected. 2. Underwater structure according to claim 1, characterized in that the cover body (3) for moving from the first to the second position via cables (10, 12) is connected to the foundation body assembly (1) and that the length of the Lines (10, 12) can be changed in a controlled manner. ~ 3. Underwater structure according to claim 1 or 2, characterized in that that the support pillar (5) at least in its lower part a floodable and drainable Has cavity. 4. Underwater structure according to one of claims 1 to 3, characterized in that that the support pillar (5) receiving central opening of the support pillar (4) extends downward through the foundation body assembly (1). 5. Underwater structure according to claim 4, characterized in that in the bottom wall (6) of the support pillar (5) areas for creating breakthrough openings are provided. 6. Underwater structure according to one of claims 1 to 5, characterized in that that the upper end region (7) of the support pillar (5) one opposite the rest of the part of the support pillar (5) has an enlarged outer diameter. 7. Procedure for towing and lowering an underwater structure according to one of claims 1 to 6, characterized in that for entrainment the foundation body assembly is partially flooded and the deck body in the first Position is held and that the foundation body assembly is controlled for lowering continued to flood and the deck is kept in the area of the water surface. 8. The method according to claim 7, characterized in that the cavity is at least partially flooded in the buttress during the dragging and after lowering the foundation body assembly to the sea floor for upward movement the support pier and the deck body in the second position is controlled.